Post on 16-Aug-2020
New Directions in Disk Forensics
Simson L. GarfinkelJanuary 15, 2006, 3:15pmPostdoctoral Fellow,Center for Research on Computation and SocietyHarvard University
Consulting Scientist,Basis Technology Corp.
1
Here are 200 hard drives
Which contain the email address “simsong@media.mit.edu”?
2
Today’s forensic tools and file formats are designed toanalyze a single drive at a time.
➊ ➋ ➌
These tools are not adequate for today’s forensic challenge.
3
This talk presents new tools and techniques for performingforensic analysis on a large number of disk drives.
The state of the art
The drives Project
The Traceback Study
Cross Drive Forensics and AFF4
Digital forensics have opened up a whole new world for lawenforcement and intelligence.
• Recovery of “deleted” filesand email
• Automatic identification of“child pornography”
• Rapid searching for targetnames and emailaddresses
5
Tools of today’s forensic trade:
GUI-based programs
Mirrored disks
Write blockers6
Today’s forensic work products:
Printed Reports
Courtroom Testimony
7
Today’s forensic techniques don’t scale.
Process is labor intensive.
Disk drives are getting bigger.
Law enforcement seizes more drives every year.
I am developing a different approach based on a differentset of requirements.
8
Purchased used from a computer store in August 1998:
9
Computer #1: 486-class machine with 32MB of RAM
A law firm’s file server...
...with client documents!
Computers #2 through #10 had:
• Mental health records
• Home finances
• Draft of a novel...
Was this a chance accident or common occurrence?
10
Hard drives pose special problem for computer security
Do not forget data when power is removed.
Contain data that is not immediately visible.
Today’s computers can read hard drives thatare 15 years old!
• Electrically compatible (IDE/ATA)• Logically compatible
(FAT16/32 file systems)• Very different from tape systems
11
Scale of the problem: huge!
50M
100M
150M
200M
250M
300M
350M
400M
1996 1998 2000 2002 2004 2006
Drives Shipped
Drives Retired
210 million drives will be retired this year.
12
Physical destruction will remove the information...
...but many “retired” drives are not physically destroyed.
13
There is a significant secondary market for used disk drives.
Retired drives are:
• Re-used withinorganizations
• Given to charities
• Sold at auction
About 1000 used drives/day sold on eBay.
14
There are roughly a dozen documented cases of peoplepurchasing old PCs and finding sensitive data.
• A woman in Pahrump, NV bought a used PCwith pharmacy records [Markoff 97]
• Pennsylvania sold PCs with “thousands of files”on state employees [Villano 02]
• Paul McCartney’s bank records sold by his bank[Leyden 04]
• O&O Software GmbH – 100 drives.[O&O 04]
• O&O Software GmbH – 200 drives.[O&O 05]
None of these are scientifically rigorous studies.
15
I purchase hard drives on the secondary market.
2001: 100 drives 2003: 150 drives
2005: 500 drives 2006: 950 drives
16
Drives arrive by UPS and USPS
17
Some drives are purchased in person
10GB drive: $19 “tested”
500 MB drive: $3 “as is”
Q: “How do you sanitize them?”
A: “We FDISK them!”
Weird Stuff, Sunnyvale California, January 1999
18
Data on drives “imaged” using FreeBSD and AImage
19
Images stored on external firewire drives
This is 900GB of storage.20
Note: I am not considering exotic recovery techniques.
I assume that writing a sector destroys its previous contents.
Some people claim that secretgovernment agencies withadvanced technology can recoveroverwritten data.
This technology has never beenpublicly demonstrated.
Even without the Men In Black,a lot of data can be recovered!
21
Example: Disk #70: IBM-DALA-3540/81B70E32
Purchased for $5 from a Mass retail store on eBay
Copied the data off: 541MB
Initial analysis:
Total disk sectors: 1,057,392Total non-zero sectors: 989,514Total files: 3
The files:
drwxrwxrwx 0 root 0 Dec 31 1979 ./-r-xr-xr-x 0 root 222390 May 11 1998 IO.SYS-r-xr-xr-x 0 root 9 May 11 1998 MSDOS.SYS-rwxrwxrwx 0 root 93880 May 11 1998 COMMAND.COM
22
Clearly, this disk was FORMATed...
23
FORMAT and FDISK overwrite very few disk sectors.
10 GB drive: 20,044,160 sectors
SectorsCommand Written %FORMAT 21,541 0.11%FDISK 2,563 0.01%
FORMAT erases the FAT,complicating the recovery of fragmented files.
24
UNIX “strings” reveals the disk’s previous contents...
% strings 70.img | moreInsert diskette for driveand press any key when ready
Your program caused a divide overflow error.If the problem persists, contact your program vendor.Windows has disabled direct disk access to protect your long filenames.To override this protection, see the LOCK /? command for more information.The system has been halted. Press Ctrl+Alt+Del to restart your computer.You started your computer with a version of MS-DOS incompatible with thisversion of Windows. Insert a Startup diskette matching this version of
OEMString = "NCR 14 inch Analog Color Display Enchanced SVGA, NCR Corporation"Graphics Mode: 640 x 480 at 72Hz vertical refresh.XResolution = 640YResolution = 480
25
70.img con’t...
ling the Trial Edition----------------------------IBM AntiVirus Trial Edition is a full-function but time-limitedevaluation version of the IBM AntiVirus Desktop Edition product. Youmay have received the Trial Edition on a promotional CD-ROM or as asingle-file installation program over a network. The Trial Editionis available in seven national languages, and each language isprovided on a separate CC-ROM or as a separaEAS.STCmEET.STCELR.STCqELS.STC
26
70.img con’t...
MAB-DEDUCTIBLEMAB-MOOPMAB-MOOP-DEDMETHIMAZOLEINSULIN (HUMAN)COUMARIN ANTICOAGULANTSCARBAMATE DERIVATIVESAMANTADINEMANNITOLMAPROTILINECARBAMAZEPINECHLORPHENESIN CARBAMATEETHINAMATEFORMALDEHYDEMAFENIDE ACETATE
27
[Garfinkel & Shelat 03] established the scale of the problem.
We found:
• Thousands of credit card numbers
• Financial records
• Medical information
• Trade secrets
• Highly personal information
We did not determine why the data had been left behind.
28
Why don’t we hear more stories?
Hypothesis #1: Disclosure of “data passed” is exceedinglyrare because most systems are properlycleared.
Hypothesis #2: Disclosures are so common that they are notnewsworthy.
Hypothesis #3: Systems aren’t properly cleared, but fewpeople notice the data.
29
Data on a hard drive is arranged in sectors.
usr bin
ls cp mv
tmp
slg
/
ba
mail junkbeth
The white sectors indicate directories and files that arevisible to the user. 30
Data on a hard drive is arranged in sectors.
usr bin
ls cp mv
tmp
slg
/
ba
mail junkbeth
x5 x4
x3 x2
x1
x6
x7
x8
The brown sectors indicate files that were deleted.31
Data on a hard drive is arranged in sectors.
usr bin
ls cp mv
tmp
slg
/
ba
mail junkbeth
x5 x4
x3 x2
x1
x6
x7
x8
The green sectors indicate sectors that were never used (orthat were wiped clean).
32
Stack the disk sectors:
usr bin
ls cp mv
tmp
slg
/
ba
mail junkbeth
x5 x4
x3 x2
x1
x6
x7
x8
.
.
Files
Deleted Files
Zero Blocks
33
NO DATA: The disk is factory fresh.
.
.
Files
Deleted Files
Zero Blocks
time
All Blocks are Zero
34
FORMATTED: The disk has an empty file system
.
.
Files
Deleted Files
Zero Blocks
time
All Blocks are Zero
BlankBlocks
File System Structures
35
AFTER OS INSTALL: Temp. files have been deleted
.
.
Files
Deleted Files
Zero Blocks
time
All Blocks are Zero
BlankBlocks
File System Structures
Free Blocks
OS and Applications
Deleted temporary files
36
AFTER A YEAR OF SERVICE
.
.
Files
Deleted Files
Zero Blocks
time
All Blocks are Zero
BlankBlocks
File System Structures
Free Blocks
OS and Applications
Deleted temporary files
... 1 year ...
OS, Applications,and user files
Deleted files
Blocks never written
37
DISK NEARLY FULL!
.
.
Files
Deleted Files
Zero Blocks
time
All Blocks are Zero
BlankBlocks
File System Structures
Free Blocks
OS and Applications
Deleted temporary files
... 1 year ...
OS, Applications,and user files
Deleted files
Blocks never written
OS, Apps,user files,and lots of
MP3s!
38
FORMAT C:\ (to sell the computer.)
.
.
Files
Deleted Files
Zero Blocks
time
All Blocks are Zero
BlankBlocks
File System Structures
Free Blocks
OS and Applications
Deleted temporary files
... 1 year ...
OS, Applications,and user files
Deleted files
Blocks never written
OS, Apps,user files,and lots of
MP3s!Recoverable
Data
39
We can use forensics to reconstruct motivations:
.
. time
OS, Apps,user files,and lots of
MP3s!Recoverable
Data
Training failure
Usability failure
40
Drives 1–236 are dominated by failed sanitization attempts.
0
500
1, 000
1, 500
2, 000
2, 500
Meg
abyte
s
Data in the file system (level 0)
Data not in the file system (level 2 and 3)
No Data (blocks cleared)
..but training failures are also important.
41
Overall numbers for the June 2005 report:
Drives Acquired: 236Drives DOA: 60Drives Images: 176Drives Zeroed: 11Drives “Clean Formatted:” 22
Total files: 168,459Total data: 125G
42
Only 33 out of 176 working drives were properly cleared!
• 1 from Driveguys — but 2 others had lots of data.
• 18 from pcjunkyard — but 7 others had data.
• 1 from a VA reseller — 1 DOA; 3 dirty formats.
• 1 from an unknown source — 1 DOA, 1 dirty format.
• 1 from Mr. M. who sold his 2GB drive on eBay.
There is no consistency on which organizations delivercleared drives.
43
But what really happened?
?I needed to contact the original drive owners.
44
The Remembrance of Data Passed Traceback Study.[Garfinkel 05]
1. Find data on hard drive
2. Determine the owner
3. Get contact informationfor organization
4. Find the right personinside the organization
5. Set up interviews
6. Follow guidelines forhuman subjects work
06/19/1999 /:dir216/Four H Resume.doc03/31/1999 /:dir216/U.M. Markets & Society.doc08/27/1999 /:dir270/Resume-Deb.doc03/31/1999 /:dir270/Deb-Marymount Letter.doc03/31/1999 /:dir270/Links App. Ltr..doc08/27/1999 /:dir270/Resume=Marymount U..doc03/31/1999 /:dir270/NCR App. Ltr..doc03/31/1999 /:dir270/Admissions counselor, NCR.doc08/27/1999 /:dir270/Resume, Deb.doc03/31/1999 /:dir270/UMUC App. Ltr..doc03/31/1999 /:dir270/Ed. Coordinator Ltr..doc03/31/1999 /:dir270/American College ...doc04/01/1999 /:dir270/Am. U. Admin. Dir..doc04/05/1999 /:dir270/IR Unknown Lab.doc04/06/1999 /:dir270/Admit Slip for Modernism.doc04/07/1999 /:dir270/Your Honor.doc
This was a lot harder than I thought it would be.
45
Ultimately, I contacted 20 organizations between April 2003and April 2005.
46
The leading cause: betrayed trust.
Trust Failure: 5 cases
4 Home computer; woman’s son took to “PC Recycle”4 Community college; no procedures in place4 Church in South Dakota; administrator “kind of crazy”4 Auto dealership; consultant sold drives he “upgraded”4 Home computer, financial records; same consultant
This specific failure wasn’t considered in [GS 03];it was the most common failure.
47
Second leading cause: Poor training and supervision
Trust Failure: 5 cases
Lack of Training: 3 cases
4 California electronic manufacturer4 Supermarket credit-card processing terminal4 ATM machine from a Chicago bank
Alignment between the interface and the underlyingrepresentation would overcome this problem.
48
Sometimes the data custodians just don’t care.
Trust Failure: 5 casesLack of Training: 3 cases
Lack of Concern: 2 cases
4 Bankrupt Internet software developer4 Layoffs at a computer magazine
Regulation on resellers might have prevented these cases.
49
In seven cases, no cause could be determined.
Trust Failure: 5 casesLack of Training: 3 casesLack of Concern: 2 cases
Unknown Reason: 7 cases
8 Bankrupt biotech startup8 Another major electronics manufacturer8 Primary school principal’s office8 Mail order pharmacy8 Major telecommunications provider8 Minnesota food company8 State Corporation Commission
Regulation might have helped here, too.
50
The techniques developed for [Garfinkel ’05]are different than traditional forensics techniques.
Traditional forensics tools:
• Interactive user interface.
• Recovery of “deleted” files.
• Generation of “investigativereports” for courtroom use.
• Focus on one or a few disks.
In [Garfinkel ’05], there were hundreds of disks to analyze.
51
Today’s tools choke when confronted withthousands of disks.
• Has this drive been previouslyimaged?
• Which drives belong to my target?
• Do any drives belong to my target’sassociates?
• Where should I start?
Today’s tools are for criminal investiations.Increasingly, we need tools for intelligence analysis.
52
Intelligence objectives can be furthered by correlatinginformation from multiple drives.
• Where any drives were used by thesame organization?
• What names/places/emailaddresses are in common?
• Which drives were used in a place orat a time of interest?
53
Example problem: Who owned this disk drive?
Approach #1: Look for Microsoft Word files and try to determinethe owner.
• Needs forensic skill.
• Requires complete documents.
Approach #2: Compute a histogram of all email addresses.
• Works with any file system.
• Works with incomplete data.
The email histogram works even if you can’t find any files.
54
The email histogram approach works quite well.
Drive #51: Top email addresses (sanitized)
Count Address(es)8133 ALICE@DOMAIN1.com3504 BOB@DOMAIN1.com2956 ALICE@mail.adhost.com2108 JobInfo@alumni-gsb.stanford.edu1579 CLARE@aol.com1206 DON317@earthlink.net1118 ERIC@DOMAIN1.com1030 GABBY10@aol.com989 HAROLD@HAROLD.com960 ISHMAEL@JACK.wolfe.net947 KIM@prodigy.net845 ISHMAEL-list@rcia.com802 JACK@nwlink.com790 LEN@wolfenet.com763 natcom-list@rcia.com
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Cross-Drive Forensics systematizes this approach.
Drives acquired from field
Drive Accession
Drive Imaging
Image Repository
Cold Storage
...
FeatureExtraction
Metadata Repository
NIST & FBI hash codes
Correlation Agent
Hot Drives
56
“First Order Cross-Drive Forensics”analyzes each drive with a filter.
.
0
200
10, 000
20, 000
30, 000
40, 000Unique CCNsTotal CCNs
Drives with high response warrant further attention.
57
Example: The Credit Card Number Detector.
The CCN detector scans bulk data for ASCII patterns that looklike credit card numbers.
• CCNs are found in certain typographical patterns.(e.g. XXXX-XXXX-XXXX-XXXXor XXXX XXXX XXXX XXXXor XXXXXXXXXXXXXXXX )
• CCNs are issued with well-known prefixes.
• CCNs follow the Credit Card Validation algorithm.
• Certain numeric patterns are unlikely.(e.g. 4454-4766-7667-6672)
58
CCN detector: written in flex and C++
Scan of disk #105: (642MB)
Test # passtypographic pattern 3857known prefixes 90CCV1 43numeric histogram 38
Sample output:
’CHASE NA|5422-4128-3008-3685| pos=13152133’DISCOVER|6011-0052-8056-4504| pos=13152440.’GE CARD|4055-9000-0378-1959| pos=13152589BANK ONE |4332-2213-0038-0832| pos=13152740.’NORWEST|4829-0000-4102-9233| pos=13153182’SNB CARD|5419-7213-0101-3624| pos=13153332
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Even with the tests, there are occasional false positives.
CCN scan of Disk #115: (772MB)Test # passpattern 9196known prefixes 898CCV1 29patterns 27histogram 13
.................@:|44444486666108|:<@<74444:@@@<<44 pos=82473275
............#"&’&&’|445447667667667|..050014&’4"1"&’. pos=86493675
......221267241667&|454676676654450|&566746566726322. pos=865078183..30210212676677..|30232676630232|.1.........001.01 pos=86516059"&#&&’&41&&’645445&|454454672676632|.3............0.. pos=86523223..........".#""#"&’|445467667227023|..............366 pos=87540819D#9?.32400.,,+14%?B|499745255278101|*02)46+;<17756669 pos=118912826.GGJJB...>.JJGG...G|3534554333511116|...............6 pos=1977118685.....}}}}}}.......|44444322233345|.....}}}}}}...... pos=228610295)6"!) .&*%,,%-0)07.|373484553420378|<67<038+.5(+0+.3. pos=638491849)6"!) .&*%,,%-0)07.|373484553420378|<67<038+.5(+0+.3. pos=645913801
60
Results of scanning 2003 corpus with CCN scanner:
Total number of image files: 178Number of CCNs found: 47,771Total number of distinct cards: 15,613Most popular CCN 6404 6521 6029 6650
(Seen 34 times on 30 drives)
Context analysis shows this is not a valid CCN:[6] 6213 l 6758 6367 ..|6404 6521 6029 6650| v 6025 6646 l -138[7] 6213 l 6758 6367 ..|6404 6521 6029 6650| v 6025 6646 l -138[8] 6213 l 6758 6367 ..|6404 6521 6029 6650| v 6025 6646 l -138[10] 6213 l 6758 6367 ..|6404 6521 6029 6650| v 6025 6646 l -138[11] 6213 l 6758 6367 ..|6404 6521 6029 6650| v 6025 6646 l -138[11] 6213 l 6758 6367 ..|6404 6521 6029 6650| v 6025 6646 l -138[15] 6213 l 6758 6367 ..|6404 6521 6029 6650| v 6025 6646 l -138[18] 6213 l 6758 6367 ..|6404 6521 6029 6650| v 6025 6646 l -138[18] 6213 l 6758 6367 ..|6404 6521 6029 6650| v 6025 6646 l -138[24] 6213 l 6758 6367 ..|6404 6521 6029 6650| v 6025 6646 l -138[25] 6213 l 6758 6367 ..|6404 6521 6029 6650| v 6025 6646 l -138
61
A “stop list” can be used for these common number.
Ignore “6404 6521 6029 6650’ and we repeat the experiment:
Total number of image files: 178Number of CCNs found: 47,737 (was 47,771)Total number of distinct cards 15,612 (was 15,613)New “most popular CCN” 5501 8501 3501 3705
(Seen 35 times on 27 drives)
Once again, this does not appear to be a valid CCN:[14] 3201 4901 : |5501 8501 3501 3705| 5102....yes.%d\Off[112] 3201 4901 : |5501 8501 3501 3705| 5102....yes.%d\Off[121] 3201 4901 : |5501 8501 3501 3705| 5102....yes.%d\Off[128] 3201 4901 : |5501 8501 3501 3705| 5102....yes.%d\Off[133] 3201 4901 : |5501 8501 3501 3705| 5102....yes.%d\Off[181] 3201 4901 : |5501 8501 3501 3705| 5102....yes.%d\Off[182] 3201 4901 : |5501 8501 3501 3705| 5102 13505....yes.[184] 3201 4901 : |5501 8501 3501 3705| 5102 13505....yes.[186] 3201 4901 : |5501 8501 3501 3705| 5102 13505....yes.
62
There are several problems with the “stop list” approach:
The list must be:
• Constructed.
• Maintained.
• Tuned for different applications.
Building a “stop list” requires judgement and patience.
63
An alternative is to assume that “false positives” are rareand focus on those drives with high response.
.
0
200
10, 000
20, 000
30, 000
40, 000Unique CCNsTotal CCNs
By definition, no drive should contain a large number ofCCNs, so these drives are all interesting.
64
An alternative is to assume that “false positives” are rareand focus on those drives with high response.
.
0
200
10, 000
20, 000
30, 000
40, 000Unique CCNsTotal CCNs
Drive #801247 CCNS286 unique
Drive #215182 CCNS1356 unique
Drive #1345875 CCNS827 unique
Drive #17231348 CCNS11609 unique
Drive #214709 CCNS223 unique
Drive #2021334 CCNS498 unique
Drive #171346 CCNS81 unique
Only 7 drives had more than 300 credit card numbers.
65
These drives were traced back to their original owners.
.
0
200
10, 000
20, 000
30, 000
40, 000Unique CCNsTotal CCNs
Drive #215182 CCNS1356 unique
Drive #17231348 CCNS11609 unique
Drive #171346 CCNS81 unique
SupermarketATM
StateSecretary'sOffice
MedicalCenter
AutoDealership
SoftwareVendor
66
Second-order analysis uses correlation techniques toidentify drives of interest.
In this example, three pairs of drive appear to be correlated.
67
Second-order analysis uses correlation techniques toidentify drives of interest.
Drives #74 x #7725 CCNS
in common
Drives #171 & #17213 CCNS
in common
Drives #179 & #20613 CCNS
in common
68
Manual analysis of on-drive data reveals that these drivesare from the same organization.
Drives #74 x #7725 CCNS
in common
Drives #171 & #17213 CCNS
in common
Drives #179 & #20613 CCNS
in common
Same Community College
SameMedical Center
SameCar Dealership
69
Second-order applications:
Possible Identifiers:
• CCNs
• Email addresses
• Message-IDs
• MD5 of disk sectors
Possible Uses:
• Identifying new socialnetworks
• Testing for inclusion in anexisting network.
• Measuring disseminationof information
70
Let’s look at drives #171 and #172 again.
Cross-drive analysis tells us that #171 and#172 are from the same medical center.
Drive #171: Development drive
• Has source code.
• 346 CCNS; 81 unique.
Drive #172: Production system.
• 31,348 CCNS; 11,609 unique
• Oracle database (hard to reconstruct).
The programmers used live data to test their system.
71
AFF is a simple, compact, self-describing, and open way tomove around disk images.
AFF
AFF
AFF
AFF
AFF
AFF
72
AFF is superior to existing disk imaging formats.
Raw:
• No compression
• No metadata
E01:
• Proprietary
• Limited storage of metadata
• 2GB file size limit
AFF:
• No filesize limits (64-bitclean)
• Stores arbitrary metadata
• Compressed or raw
• Remembers “bad” sectors
• Extensible
• Smaller images thanEnCase
73
The AFF specification is divided into two layers.
AFF Data Schema
AFF XML
raw
AFF binary
74
The AFF defines a series of name/value pairs.
imagesize # bytes in imageseg0 First data segmentseg1 Second data segmentsegsize data segment sizemd5 MD5 of uncompressed disk imagesha1 SHA1 of uncompressed disk imagebadflag pattern for “bad” sectorscase num Case numberimage gid Unique 128-bit identifierdevice sn Drive serial numberimaging date Date imagedimaging notes Notes on imaging... ...
New segment names can be added as the need arises.75
AFF stores disk images and metadata in named segments.
HEAD
seg0 seg1 seg2
MD
5
SHA-
1
sig
Dri
ve S
N
Text
info
Data
Segments can contain up to 232 data bytes.
76
AFFXML can be used to annotate raw (dd) image filesusing the AFF schema.
AFF XML
raw
<affinfo name=’/project/affs/551.aff’><segsize arg=’16777216’ /><imagesize arg=’2’>4290600960</imagesize><md5>5M/87t7f6N4N5koMKb4QPA==</md5><sha1>2XzW2A+kfKIGtmDloxiovqXjWcg=</sha1><badsectors>AAAAAAAAAAA=</badsectors><blanksectors>AASGTQAAAAA=</blanksectors>
</affinfo>
77
AFF TOOLS make it easy to work with AFF files.
afcat Pipe AFF to stdoutafcompare Compares two filesafconvert Convert AFF↔rawafinfo Print information about an AFFaftest Validate the AFF Libraryafxml Output AFF metadata as XML
aimage The Advanced Disk Imager.
These tools work under FreeBSD, Linux, and Windows*.
78
AFFLIB makes it easy to add AFF support to existingprograms.
AFILE *af;
af = af_open(filename,O_RDONLY,0666);af_seek(af,offset,whence);af_read(af,buf,count);af_write(af,buf,count);af_close(af);
26 functions supporting streams & name/value access.
Support has been added to Brian Carrier’s Sleuth Kit.
79
AImage is the Advanced Disk Imager.
80
AImage features.
Writes AFF and/or raw (dd)
Automatically reads drive SN and otherdrive metadata
Compress during imaging orafterwards
MACs & signatures for segmentsand/or image
Intelligent error recovery
81
Advanced Forensics Format 1.0 in summary:
• AFF Specification: Simple, self-describing, robust
• AFF Library: open source AFF implementation
• AFF Tools: For working with AFF files
• Aimage: easy-to-use imager
Download from http://www.afflib.org
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Future Work: Deploying Compete Delete
• Make FORMAT actually erase the disk.
• Make “Empty Trash” actually overwrite data.
• Integrate this functionality with webbrowsers, word processors, operatingsystems.
• Address usability dangers of clean delete.
• Analysis of “one big file” technique.
many of these sources, their credibility was difficult to assess and was often left to the foreigngovernment services to judge. Intelligence Community HUMINT efforts against a closed societylike Iraq prior to Operation Iraqi Freedom were hobbled by the Intelligence Community'sdependence on having an official U.S. presence in-country to mount clandestine HUMINTcollection efforts.
(U) When UN inspectors departed Iraq, the placement of HUMINT agents and thedevelopment of unilateral sources inside Iraq were not top priorities for the IntelligenceCommunity. The Intelligence Community did not have a single HUMINT source collectingagainst Iraq's weapons of mass destruction programs in Iraq after 1998. The IntelligenceCommunity appears to have decided that the difficulty and risks inherent in developing sourcesor inserting operations officers into Iraq outweighed the potential benefits. The Committeefound no evidence that a lack of resources significantly prevented the Intelligence Communityfrom developing sources or inserting operations officers into Iraq.
When Committee staff asked why the CIA had not consideredplacing a CIA officer in Iraq years before Operation Iraqi Freedom to investigate Iraq's weaponsof mass destruction programs, a CIA officer said, "because it's very hard to sustain . . . it takes arare officer who can go in . . . and survive scrutiny | ^ | [ m | | | for a long time." TheCommittee agrees that such operations are difficult and dangerous, but they should be within thenorm of the CIA's activities and capabilities. Senior CIA officials have repeatedly told theCommittee that a significant increase in funding and personnel will be required to enable to theCIA to penetrate difficult HUMINT targets similar to prewar Iraq. The Committee believes,however, that if an officer willing and able to take such an assignment really is "rare" at the CIA,the problem is less a question of resources than a need for dramatic changes in a risk aversecorporate culture.
(U) Problems with the Intelligence Community's HUMINT efforts were also evident inthe Intelligence Community's handling of Iraq's alleged efforts to acquire uranium from Niger.The Committee does not fault the CIA for exploiting the access enjoyed by the spouse of a CIAemployee traveling to Niger. The Committee believes, however, that it is unfortunate,considering the significant resources available to the CIA, that this was the only option available.Given the nature of rapidly evolving global threats such as terrorism and the proliferation ofweapons and weapons technology, the Intelligence Community must develop means to quicklyrespond to fleeting collection opportunities outside the Community's established operating areas.The Committee also found other problems with the Intelligence Community's follow-up on the
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Future Work: 2500 Drive Corpus
• Automated construction of stop-lists.
• Detailed analysis of false positives/negatives in CCN test.
• Explore identifiers other than CCNs.
• Support for languages other than English.
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Future Work: AFF Toolkit
• Improved imaging, storageand backup.
• Web-based database of hashcodes.
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Future Work: Economics and Society
• Who is buying used harddrives and why?
• Compliance with FACT-A
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Summary
A lot of information is left onused drives.
Working with these drives givesinsights for improving forensicpractice.
Cross drive forensics and AFFare two tangible benefits to date.
There is a lot more work to do.
Questions?
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References
[Garfinkel & Shelat 03] Garfinkel, S. and Shelat, A.,“Remembrance of Data Passed: A Study of Disk SanitizationPractices,” IEEE Security and Privacy, January/February 2003.http://www.simson.net/clips/academic/2003.IEEE.DiskDriveForensics.pdf
[Markoff 97] John Markoff, “Patient Files Turn Up in UsedComputer,” The New York Times, April 1997.
[Villano 02] Matt Villano, “Hard-Drive Magic: Making DataDisappear Forever,” The New York TImes, May 2002.
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